Date post: | 24-Dec-2015 |
Category: |
Documents |
Upload: | archibald-harvey |
View: | 224 times |
Download: | 0 times |
Cost of Production
ETP Economics 101
Firm’s Objective
The Firm’s Objective The economic goal of the firm is to maximize
profits.
Total Revenue The amount a firm receives for the sale of its
output. Total Cost
The market value of the inputs a firm uses in production.
Total Revenue and Total Cost
Profit
Profit is the firm’s total revenue minus its total cost.
Profit = Total revenue - Total costProfit = Total revenue - Total cost
Firm’s Cost of Production
A firm’s cost of production includes all the opportunity costs of making its output of goods and services.
Explicit and Implicit Costs A firm’s cost of production include explicit costs and
implicit costs. Explicit costs are input costs that require a direct
outlay of money by the firm. Implicit costs are input costs that do not require an
outlay of money by the firm.
Economic Profit and Accounting Profit Economists measure a firm’s economic profit as total revenue
minus total cost, including both explicit and implicit costs. Accountants measure the accounting profit as the firm’s total
revenue minus only the firm’s explicit costs. When total revenue exceeds both explicit and implicit costs, the
firm earns economic profit. Economic profit is smaller than accounting profit.
Figure 1 Economic versus Accountants
Copyright © 2004 South-Western
Revenue
Totalopportunitycosts
How an EconomistViews a Firm
How an AccountantViews a
Firm
Revenue
Economicprofit
Implicitcosts
Explicitcosts
Explicitcosts
Accountingprofit
Example: Joe runs a small boat factory Joe can make 10 boats/year and can sell them for
$25,000 each. It costs Joe $150,000 for raw materials. Joe Invests $400,000 in factory and equipments:
$200,000 from his own savings and $200,000 borrowed at 10% interest (assume Joe could have loaned his money out at 10% interest).
Joe can work at a competing boat factory for $70,000/year.
Example: continued
Total revenue=10*25,000=$250,000 Explicit costs =$150,000+($200,000*0.1)=$170,000 Total opportunity costs=Explicit +Implicit =[$150,000+
($200,000*0.1)]+[($200,000*0.1)+$70,000]=$260,000 Accounting profit=$250,000-$170,000=$80,000 Economic profit=$250,000-$260,000=-$10,000
Production Function
The Production Function The production function shows the relationship
between quantity of inputs used to make a good and the quantity of output of that good.
Q= f(L, K), where L is labor and K is capital
Marginal Product
Marginal Product The marginal product of any input in the production process
is the increase in output that arises from an additional unit of that input.
Diminishing Marginal Product Diminishing marginal product is the property whereby the
marginal product of an input declines as the quantity of the input increases.
Example: As more and more workers (labors) are hired at a firm, each additional worker contributes less and less to production because the firm has a limited amount of equipment (capital).
Case: Hungry Helen’s Cookie Factory
Figure 2 Hungry Helen’s Production Function
Copyright © 2004 South-Western
Quantity ofOutput
(cookiesper hour)
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
Number of Workers Hired0 1 2 3 4 5
Production function
Slope of Production Function
Diminishing Marginal Product The slope of the production function measures
the marginal product of an input, such as a worker.
When the marginal product declines, the production function becomes flatter.
Production Function and Total Cost Curve The relationship between the quantity a firm
can produce and its costs determines pricing decisions.
The total-cost curve shows this relationship graphically.
Cookie Factory Case: continued
Figure 3 Hungry Helen’s Total-Cost Curve
Copyright © 2004 South-Western
Total
Cost
$80
70
60
50
40
30
20
10
Quantityof Output
(cookies per hour)
0 10 20 30 15013011090705040 1401201008060
Total-costcurve
Fixed and Variable Costs
Costs of production may be divided into fixed costs and variable costs.
Fixed costsFixed costs are those costs that do not vary with the quantity of output produced.
Variable costsVariable costs are those costs that do vary with the quantity of output produced.
Formula of Total Cost
Total Costs (TC) Total Fixed Costs (TFC) Total Variable Costs (TVC) Total Costs (TC) TC = TFC + TVC
Average Costs
Average Costs Average costs can be determined by dividing the firm’s
costs by the quantity of output it produces. The average cost is the cost of each typical unit of
product. Average Costs
Average Fixed Costs (AFC) Average Variable Costs (AVC) Average Total Costs (ATC) ATC = AFC + AVC
Average Costs
AFCFCQ
F ix ed co st
Q u an tity
AVCVCQ
V ariab le co st
Q u an tity
ATCTCQ
T o ta l co st
Q u an tity
Marginal Costs
Marginal Cost Marginal cost (MC) measures the increase in
total cost that arises from an extra unit of production.
Marginal cost helps answer the following question:
How much does it cost to produce an additional unit of output?
Formula of Marginal Cost
M CTCQ
( ch an g e in to ta l co st)
(ch an g e in q u an tity )
Note
Marginal Cost
= Change in Total Cost/Change in Quantity
= Change in Variable Cost/Change in Quantity
Case: Thirsty Thelma’s Lemonade Stand
Figure 5 Thirsty Thelma’s Average-Cost and Marginal-Cost Curves
Copyright © 2004 South-Western
Costs
$3.50
3.25
3.00
2.75
2.50
2.25
2.00
1.75
1.50
1.25
1.00
0.75
0.50
0.25
Quantityof Output
(glasses of lemonade per hour)
0 1 432 765 98 10
MC
ATC
AVC
AFC
Marginal Cost Curve and Its Shape
Marginal cost rises with the amount of output produced. This reflects the property of diminishing
marginal product.
Average Total Cost Curve and Its Shape The average total-costaverage total-cost curve is U-shaped. At very low levels of output average total cost is high because
fixed cost is spread over only a few units. Average total cost declines as output increases. Average total cost starts rising because average variable cost
rises substantially. The bottom of the U-shaped ATC curve occurs at the quantity
that minimizes average total cost. This quantity is sometimes called the efficient scale of the firm.
Relationship between MC and ATC Relationship between Marginal Cost and Average
Total Cost Whenever marginal cost is less than average total
cost, average total cost is falling. Whenever marginal cost is greater than average total
cost, average total cost is rising. The marginal-cost curve crosses the average-total-cost
curve at the efficient scaleefficient scale. Efficient scale is the quantity that minimizes average
total cost.
Typical Cost Curves
It is now time to examine the relationships that exist between the
different measures of cost.
Another Case: Big Bob’s Bagel
Figure 6 Big Bob’s Cost Curves
Copyright © 2004 South-Western
(a) Total-Cost Curve
$18.00
16.00
14.00
12.00
10.00
8.00
6.00
4.00
Quantity of Output (bagels per hour)
TC
42 6 8 141210
2.00
TotalCost
0
Figure 6 Big Bob’s Cost Curves
Copyright © 2004 South-Western
(b) Marginal- and Average-Cost Curves
Quantity of Output (bagels per hour)
Costs
$3.00
2.50
2.00
1.50
1.00
0.50
0 42 6 8 141210
MC
ATCAVC
AFC
Properties of Typical Cost Curves
Important Properties of Cost Curves Marginal cost eventually rises with the quantity of
output. The average-total-cost curve is U-shaped. The marginal-cost curve crosses the average-total-cost
curve at the minimum of average total cost. The marginal-cost curve crosses the average-variable
cost curve at the minimum of average variable cost.
Costs in the Short Run and in the Long Run For many firms, the division of total costs
between fixed and variable costs depends on the time horizon being considered. In the short run, some costs are fixed. In the long run, fixed costs become variable
costs.
Short-Run Cost Curves and Long-Run Cost Curves Because many costs are fixed in the short run
but variable in the long run, a firm’s long-run cost curves differ from its short-run cost curves.
Figure 7 Average Total Cost in the Short and Long Run
Copyright © 2004 South-Western
Quantity ofCars per Day
0
AverageTotalCost
1,200
$12,000
ATC in shortrun with
small factory
ATC in shortrun with
medium factory
ATC in shortrun with
large factory
ATC in long run
Economies of Scale?
Economies of scale refer to the property whereby long-run average total cost falls as the quantity of output increases.
Diseconomies of scale refer to the property whereby long-run average total cost rises as the quantity of output increases.
Constant returns to scale refers to the property whereby long-run average total cost stays the same as the quantity of output increases
Figure 7 Average Total Cost in the Short and Long Run
Copyright © 2004 South-Western
Quantity ofCars per Day
0
AverageTotalCost
1,200
$12,000
1,000
10,000
Economiesof
scale
ATC in shortrun with
small factory
ATC in shortrun with
medium factory
ATC in shortrun with
large factory ATC in long run
Diseconomiesof
scale
Constantreturns to
scale